Blueprint Problem: Time Value of Money Time value of money Due to both interest

ID: 2460222 • Letter: B

Question

Blueprint Problem: Time Value of Money

Time value of money

Due to both interest earnings and the fact that money put to good use should generate additional funds above and beyond the original investment, money tomorrow will be worth less than money today.

Simple interest
Ross Co., a company that you regularly do business with, gives you a $16,000 note. The note is due in three years and pays simple interest of 5% annually. How much will Ross pay you at the end of that term? Note: Enter the interest rate as a decimal. (i.e. 15% would be entered as .15)

Compound interest
With compound interest, the interest is added to principal in the calculation of interest in future periods. This addition of interest to the principal is called compounding. This differs from simple interest, in which interest is computed based upon only the principal. The frequency with which interest is compounded per year will dictate how many interest computations are required (i.e. annually is once, semi-annually is twice, and quarterly is four times).

Imagine that Ross Co., fearing that you wouldn’t take its deal, decides instead to offer you compound interest on the same $16,000 note. How much will Ross pay you at the end of three years if interest is compounded annually at a rate of 5%? If required, round your answers to the nearest cent.

If you were given the choice to receive more or less compounding periods, which would you choose in order to maximize your monetary situation? SelectMoreLessSame amountCorrect 6 of Item 2

APPLY THE CONCEPTS: Present value of a single amount in the future

As it is important to know what a current investment will yield at a point in the future, it is equally important to understand what investment would be required today in order to yield a required future return. The following displays what present investment would be required in order to yield $8,000 three years from now, assuming annual compounding at 5%.

The most straightforward method for calculating the present value of a future amount is to use the Present Value Table. By multiplying the future amount by the appropriate figure from the table, one may adequately determine the present value.

Instructions for using present value tables

+ Present Value of a Future Amount

Using the previous table, enter the correct factor for three periods at 5%:

You may want to own a home one day. If you are 20 years old and plan on buying a $300,000 house when you turn 30, how much will you have to invest today, assuming your investment yields an 8% annual return? If required, round your answers to the nearest cent. $

APPLY THE CONCEPTS: Present value of an ordinary annuity

Many times future sums of money will not come in one payment but in a number of periodic payments. For example, imagine that you want to buy a house and know that you will have periodic mortgage payments and you need to know how much you would have to invest today in order to facilitate all of those payments into the future. This is called an ordinary annuity and it says that a certain value today at a stated interest rate is equal to a certain number of future payouts for a given amount per payment. The following timeline displays how an ordinary annuity pays out when distributed in three equal payments at an annually compounded interest rate of 5%.

The most simple and commonly used method of determining the present value of an ordinary annuity is to multiply the incremental payout by the appropriate rate found on the present value of an ordinary annuity table.

+ Present Value of an Ordinary Annuity

Using the previous table, enter the correct factor for three periods at 5%:

The controller at Ross has determined that the company could save $4,000 per year in engineering costs by purchasing a new machine. The new machine would last 10 years and provide the aforementioned annual monetary benefit throughout its entire life. Assuming the interest rate at which Ross purchases this type of machinery is 10%, what is the maximum amount the company should pay for the machine? $ (Hint: This is basically a present value of an ordinary annuity problem as highlighted above.)

Assume that the actual cost of the machine is $18,000. Weighing the present value of the benefits against the cost of the machine, should Ross purchase this piece of machinery? SelectYesNoNot enough information

Principal + ( Principal x Rate x Time ) = Total $ + ($ x x years ) = $

Explanation / Answer

Solution:

Simple Interest

Ross will pay at the end of that term = Principal + (Principal x Rate x Time) =

= $16,000 + ($16,000 x 0.05 x 3) = $18,400

Compound Interest

Ross will pay at the end of 3 years if interest compounded annually = $18,522

Year

Principal Amount at beginning of

Annual Amount of Interest @ 5% p.a. (Principal At beginning of Year x)

Accumulated Amount at end of year (Principal at beginning of year + Annual Amount of Interest)

$16,000

$800.00

$16,800

$840.00

$17,640

$882.00

$18,522

If you were given the choice to receive more or less compounding periods, which would you choose in order to maximize your monetary situation? ---- It is advised to select less compounding period to maximise the monetary situation because less compounding period, the money at the end of period is higher than more compounding periods.

Present Value of Ordinary Annuity of $6,000 equal amount for 3 years at annually compounded interest rate of 5%

Present Value of Ordinary Annuity = $6,000 x PVIFA (5%, 3)

PVIFA (5%, 3) can be calculated by using following formula = [1 - (1+R)-n] / R = [1 - (1+0.05)-3] / 0.05 = 2.723

Present Value of Ordinary Annuity = $6,000 x 2.723 = $16,338